Machine for making paper containers



-March 24, 1942. A. F. MILLER 2,277,128

MACHINE FOR MAKING PAPER CONTAINERS Fil'ed Sept. 16, 1938 15 Sheets-Sheet 1 WITNESS fl wigs/ 1110a 35m- ILLER W BY L ATTORNEYS March 24, 1942.- A. F. MILLER 2,277,128

MACHINE FOR MAKING PAPER CONTAINERS Filed Sept. 16, 1938 15 Sheets-Sheet 2 WITNESS f INVENTOR flzsmrfi M/LL 15/? .fi ww BY M! ATTORNEYS March 24, 1942. A.F. MILLER 2,277,123

{MACHINE FOR MAKING PAPER CONTAINERS Filed Sept. 16, 1938 15 Sheets-Sheet 4 \NITN ESS v INVENTOR y Y Y flLBE/PTEM/LLER 7 mow BY 1 ATTORNEYS March 24, 1942. A. F. MILLER 2,277,128

MACHINE FOR MAKING PAPER CONTAINERS Filed Sept. 16, 1938 15 Sheets-Sheet 5 March 24, 1942. A. F. MILLER MACHINE FOR MAKING PAPER CONTAINERS Filed Sept 16, 1938 15 Sheets-Sheet e WITNESS March 24, 1942. A. F. MILLER 2,277,128

MACHINE FOR MAKING PAPER CONTAINERS Filed Sept. 16, 1958 15 Sheets-Sheet 7 ,0 l5 W- l W- 122 v #6 Q I 1111 359,; WITNESS INVENTOR March 24, 1942.

A. F. MILLER MACHINE FOR MAKING PAPER CONTAINERS Filed Sept. 16,- 1938 15 Sheets-Sheet 8 III: I

III M 1 I" ATTOR N March 24, 1942. 2,277,128

MACHINE FOR MAKING PAPER CONTAINERS Filed Sept. 16, 1958 15 Sheets- -Sheet 9 WITN ESS INVENTOR A BERT E MILL ER y wemm A BY W ATTORNEYS March 24, 1942. A F. MILLER 2,277,128

MACHINE FOR MAKING PAPER CONTAINERS Filed Sept. 16, 1938 15 Sheets-Sheet'lO WITNESS I I INVENTOR flLBE/PTE M/LLER (AM-J1 I ATTORN EYS March 24, 1942. A. F./MILLER' MACHINE FOR MAKING PAPER CONTAINERS 15 Sheets- Sheet 11 Filed Sept. 16, 1938 Qua lllr I. ll

INVEN'i'OR flLBERT/T MILLER WITNESS 5%;?

ATTORNEYS March 24,1942. MILLER MACHINE FOR MAKING PAPER CONTAINERS Filed Sept. 16, 1938 ,15 SheetsSheet 12 WITNESS March 24, 1942. I; MILLER 2,277,128

NACHINE FOR MAKING PAPER CONTAINERS Filed Sept 16, 1938 I5 Sheets-Sheet 13 WITNESS INVENTOR f #1. BERT M/L LER ATI'ORNEYS March 24, 1942.

A. F. M ILLER 2,277,128 MACHINE FOR MAKING PAPER CONTAINERS I Filed Sept. 16, 1938 15 Sheets-Shet 15 256 ziz! 0' 7- 22 1 I 117 w G) WITNESS INVENTOR 5 f flLBE/erfi MILLER ATTORNEYS Patented Mar. 24, 1942 [UNITED STATES PATENT OFFICE MACHINE FOR. MAKING PAPER commas Albert F. Miller, New York, N. Y., assignor, by mesne assignments, to president and directors of The Manhattan Company, New York, N. Y., a corporation of New York, as trustee for Gibson Patent Containers, Ltd.

Application September 16, 1938, Serial No. 230,183 7 41 Claims.

This invention relates to machines for making containers and more particularly to machines for forming containers and covers from tubes composed of one or more plies of paper.

.The principal object of the invention is to provide an efiicient and durable automatically operating machine capable of rapidly producing con- .the annularly shaped blanks from which the container bodies and the covers are formed. In

one embodiment of the invention, the blanks are series of cams and levers whichare in turn driven from the main drive of the machine. The rotational movement of each die, however, isimparted by a separate continuously driven motor.

v After the beading operations automatic ejecting means operate either to loosen the blanks in V the holders or to discharge them from the holders held in position in the holders during the cycle of operations by gripping means which are actuated automatically in the operation of the machine to grip the blanks as they are successively fed to the machine and to successively release the finished articles as each successive holder completes its cycle of operations. In that embodiment of the invention which is designed to manuf'acture the container covers, the blanks are maintained in position in the holders by suitable guide mechanism during the step-by-step. movement of the table until the blanks arrive at the station where the beading operations are per- .formcd thereon,

whereupon gripping means temporarily engage the blanks to hold them in position until engaged by the beading mechanism. The advantage of this latter arrangement is that the cover discs for the covers can be fed to the machine at the sme time that the annular side portions thereof are fed thereto, the guide mecham'sm and gripping means holding suchparts in assemblcd relation until the beading mechanism functions to perform its operations. Means are into a waxing device.

The invention consists accordingly in the novel features of construction, arrangements and combinations of parts embodied by way of example in the machines hereinafter described and illustrated in the accompanying drawings in which Figs.- 1-20 illustrate one form of the invention, Figs. 24-28 illustrate another form of the invention and Figs. 21-23 illustrate the products which are produced by such forms of the invention. It is to be noted that the embodiment of my invention illustrated in Figs. 1-20 is particularly adapted for forming the container bodies illustrated in Figs. 21 and 23 while the embodiment illustrated in Figs. 24-28 is particularly adapted to form the covers for the container bodies produced by the first-mentioned embodiment of the invention, an illustration of such covers being shown in Fig. 22. a

vReferring more particularly to the drawings, in which the same reference characters indicate the same parts in the various views, Fig. 1 is a side elevation of the container machine, the parts being shown in a normal'or at rest position and certain of such parts being shown in dotted outline; Fig. 2 is a rear elevation of the mechanism shown in Fig. 1; Fig. 3 is a top plan view of the machine, certain of the parts being omitted for,

of Fig. 1; Fig. 5 is a sectional plan view of the provided in both embodimentsoi theinvention;

to properly position the blanks subsequent operations on such blanks. The heading mechanisms in both embodiments of the invontion include two units disposed on opposite F s'da-s of the tables so that both ends of the blanksare operated upen simultaneously. Each of the heading unit's comprises a heading die and interior clamping mechanism which are movable relative to one another and are controlled by a in the holders for machine taken along the line 55 of Fig, 1; Fig. 61s a sectional plan view of the machine taken along the line 6-6 of Fig. 1; Fig. '7 is a top plan view of the lower spinner and spinner operating mechanism; Fig. 8 is aside elevation, partly in section, of the mechanism shown in plan view in Fig. 7; Fig. 9 is an enlarged sectional view of the spinner mechanism, the section being taken along the line 9-9 of Fig.8;Fig. 10 is a side elevation of the clamping mechanism shown in section in Fig. 9; Fig 11 is a top plan view of the spinner and clamping'head, the clamp slides and guides being shown in dotted outline; Fig. 12 is a detail plan .view of the clamp slides move; partly in outline, ,of

guides in which the Fig.'13 is a vertical section, the upper and lower spinner andclamping mechanism shown in connection with a container body, the relation of the parts being illustrated at the moment that the heading operations are finished and the mechanism is ready to be withdrawn to its normal position; Fig. 14 is a bottom plan view of the upper spinner mechanism, the clamps being shown in their operated position; Fig. 15 is an enlarged sectional detail of the beading groove ofthe upper spinner;

Fig. 16 is an enlarged sectional view of the beading groove of the lower spinner; Fig. 17 is a plan view, partly in section, of a portion of the turret illustrating the construction of the container holders and the arrangement of the outer body clamping mechanism, certain of the parts being omitted for the sake of cleamess; Fig. 18 is a sectional view taken along the line Iii-l8 of Fig. 17; Fig. 19 is an elevation, partly in section, of the waxing device and the operating mechanism therefor and Fig. 20 is a'similar view of the mechanism for discharging or loosening the container bodies in the holders at the end of the sequence of operations; Fig. 21 is a perspective view, partly in section, of the container body produced-by the embodiment of the invention illustrated in Figs. 1-20; Fig. 22 is a similar view of the cover of such container; Fig. 23 is a sectional view showing the container and cover in assembled relation, the body of such container being much shorter than the container body illustrated in Fig. 21 to illustrate the adaptability of the machine for making container bodies of varying sizes; Fig. 24 is a side elevation of a machine made in accordance with the invention and modielevation of the spinning mechanism incorporated in this form of the invention and certain of the operating parts therefor; and Fig. 28 is an en- II which has a'diameter substantially the sametainer has been treatedwith paraflin prior to the formation of the head 3 so that the paper material which forms such bead and the lower portion of the container wall around such bead, as indicated by the numeral 6, is thoroughly impregnated with the wax. The disc bottom 5 may also be impregnated with wax in a separate operation. The upper edge of thecontainer body is rolled outwardly to provide a wide, tightly formed bead I, the upper edge portion of the container body being disposed substantially vertically within the bead and in close engagement with the outer surface of the body and the adjacent curled portion of the container wall. The head I not only serves to strengthen the upper portion of the container body but interlocks with .the cover of the container to hold the latter firmly in .position thereon as'is shown in Fi 23.

The cover of the container is illustrated in Figs. 22 and 23 of the drawings and..is composed of a heavy single ply paper which like the material of which the body is composed, has first been formed into the shape of a tube and then cut to an appropriate width before feeding it to the machine shown in Figs. 24 to 28 of the drawings. As a result of the operations performed upon such annular blank, the upper and lower edges of the cover which is designated by the numeral 8, are provided with two inturned beads 8 andlll, respectively. Disposed within the annular cover member 8 and intermediate the beaded edges 9 and III is positioned a loosely mounted cover disc as the outside diameter of the upper bead I on the container body so that it rests thereon when the cover is placed in position on the body of the bead II of the cover with the upper bead I of thelarged detailed side elevation, partly insection,

of a portion of the mechanism shown in Fig. 2'1, certain of the parts being broken away and in section for the purposes of illustration.

In order to facilitate an understanding of the invention, general reference will firstbe given to the construction of the articles which are the products of the full operation of both the form of the machine illustrated for making container bodies and the form of the machine as modified for the manufacture. of covers for such container bodies. These articles are illustrated in Figs 21-23 of the drawings, the body of the container which is made in that embodiment of the invention shown in Figs.-1-20, being illustrated in Figs. 21 and 23 and comprising a multi-ply paper wall of circular cross-section, the inner ply or lining I thereof being preferably formed from a sheet of white paper and the outer ply 2 thereof being preferably formed of a heavy brown paper. Prior tobeing fed to the machine which is the subject of the present invention the two plies I and 2 were formed together into the shape of a tube and the tube then cut up into cylindrical blanks of the desired size. As a, result of the operations performed on the cylindrical body blank the lower edge of the multi-ply body is rolled inwardly to form an inturned bead- 3, the upper surface of which has been somewhat'fiattened, as indicated at 4, to provide a shoulder of suflicient width to support satisfactorily -.the disc-shaped bottom I which merely rests on such shoulder I and is not fixedly attached to the body of the container (see Fig, 23) The lower edge portion of the con- 75,=

container. In the assembled condition of the parts the annular cover member 8 and the cover disc II are locked in position on, the container body by the interlocking engagement of the lower container body. As the cover disc II. is not secured to any of the parts of the container the product. packed in the container can'be removed or dispensed therefrom by simply prying out the cover disc, the annular cover member 8 remaining in locked position on'the upper portion of the container body and servingto give it-rigidity.

Container body machine Y is fixedly secured, as by bolts, upon a centrally disposed hub IS, the latter of which is moimted upon-and fixedly attached to a vertically disposed shaft II, as is shown more clearly in Fig. 18. The shaft I1 is rotated in a step-by-step fashion by mechanism hereinafter described. The table I! is provided with six holders or receptacles for receiving the container bodies and during its step-by-step rotative movement in a clockwise manner, as viewed in Fig. 17, brings the holders to a stop at a number of stations where a series of operations are performed. In Fig. 3 of the these several stations are indicated by letters, the letter A indicating the. position in the trayel of the table I! at which the partly formed cylindrical container blank is inserted by the operator in one of the holders provided on the table. At station 3 a waxing device moves into engagement with the lower end of the con.-

tainer.

tainer blank and applies a small amount of heated paraffin to such edge. In the next successive movement of the table IS the holder at station .8

the container blank. Upon the next rotative The shafts 35 extend through the hub bearings 33 which are integrally formed with those portions movement of the table the container blank is brought to the position indicated by the letter D between two spinning devices which simultaneously bead the top and bottom edges of the conthe table moves to the position indicated by the letter E which like the position indicated by the letter C is a blankor idle station. On termination of the period of rest at station E, the next rotative movement of the table brings the container blank to theposition F where discharge Upon the completion of this operation mechanism engages with the bottom of the container and loosens it sufliciently to enable the operator to readily remove it therefrom. The next rotative movement of the table completes its cycle and brings the holder to position A where a new container blank is inserted therein.

Holders and stop plate The container blank holders or receptacles each comprise a cylindrically shaped body portion l8 supported in' position over an opening provided in the table l5 by means of an outwardly extending flange integral with the lower end of such cylindrical portion 8 and fixedly secured to the table l5, as by bolts (see Figs. 1'? and 18). The

upper end of the cylindrical portion I8 is provided with an outwardly flaring funnel shaped portion l9 which serves as a guide to enable the operator to'load the holder readily; When the operator inserts the body blank in the holder l8 he forces it down into the holder until the lower end thereof engages with a stop plate (see Fig. 18) which is disposed a predetermined distance below the table at the loading station A.

The stop plate 20 is mounted on a vertically dis- Y .'therefore the plate 2|l.with respect to the table i5. The bracket 22 is bolted at its other end to a flat'surface provided on the part 24 of a split bearing through which extends the turret shaft II. The other half 25 of the split bearing is provided with an integrally formed plate 26 which rests upon and is bolted to the upper flange of a cross 'T-beam 21. The cross beam 21 is supported by the side frame members 28 and 29, as is shown more clearly in Fig. 5 of'the drawings.

' Gripping means Associated with each of the container holdersis a pair of arcuately shaped shoes or gripping members 30 and 3| which extend through'spaced of the holder flanges which are adjacent to the central axis of the table 15. The shoe 30 of each container holder is disposed opposite to the shoe 3| of the adjacent container holder and is connected thereto by means of a compression spring 31 whose ends are seated into hollow recesses provided in the opposed sides of such shoes and which normally tends to maintain such shoes in engagement with the outer surfaces of the containers in such holders. Means are provided, however, to simultaneously pivot the shoes 3|! and 3| of a container holder out of engagement with a container disposed therein against the tension of the springs 31 to enable. discharge of the finished container and permit the insertion of a new container blank in the holder. This means comprises a cam arm 38 which is disposed'beneath the table 5 and which is fixedly connected to the lower end of the shaft 35 supporting the lever arm 33. The outer free end of the cam arm 38 is provided with a roller adapted to ride on the outer edge of a cam 39 disposed inhorizontal relation beneath the turn table l5. The cam 39 is so positioned with respect to the cycle of movement of the table l5 and its cam surface is so formed that when a holder moves into position at the discharge station F the roller on the cam arm 38 will engage with the cam 39 and the latter'will thereupon cause the cam arm 38 to be pivoted outwardly towards its associated holder l8. Outward movement of the cam arm 38 will rotate the shaft 35 and the lever arm 33 in a clockwise direction,'as viewed in Fig. 17, against the tension of the spring 31 associated with such lever arm to withdraw the shoe 3| from engage-j ment with the container in the holder. The lever arm 33 has integrally formed therewith an extension 40 which extends oppositely from the shaft 35 soas to form an obtuse angle with the arm 33 and which is providedwith an oifset rounded edge adapted to engage. under the tension of spring 31 with a flat surface provided on the outer end of an extension 4| integrally formed with the lever arm'32 and disposed intermediate the extension 40 and the 'container' holder 8. It will belevident from Fig. 17 of the v drawings that as lever arm 33 is pivoted outwardly by the coaction of the cam arm 38 and V cam 39, theextension 40' associated therewith will be pivoted towards the holder l8 and will press the extension 4| in the same direction thereby causing the lever arm 32 to be rocked outwardly to withdraw the shoe 30 from engagement with the container in such holder whereby such container may be readily removed from the holder. The roller of the cam, arm- 38 of each holder will remain in engagement with the cam openings provided in the bodyof suchholders, as

shown in Figs. 1'7 and 18, and are adapted to engage with the outer surface of the container blank and hold such blank securely in position b in the holder during the travel of the table l5.

As can be clearly seen in Figs. 17 and 18. the shoes 30and 3| are formed on the-outer ends of the levers 32 and 33-, respectively. the other ends of the levers 32 being rotatahly mounted on the vertically disposed studs 34 which are fixedly secured to the lower flanges of the holders, while the levers 33 are. aflixed at their other ends to the upper ends of the pins or shafts 35.

39 throughout the range of movement of such holder from station F to station A. as is clearly shown in Fig. 17, so that the shoes 3|! and 3| are maintained in-retracted position by such cam during the loading of a container, When a loaded holder'moves from station A to station B on the next step-by-step movement of the table 15 the cam roller 38- of such holder w ll move off the cam surface of the cam 39 thereby enabling the springs 31 connected with the ShO'ZS 30 and 3| of such holder to move the shoes into engagement with the container body and such springs will maintain this engagement of the shoes until the holder again comes around to the discharge station F whereupon the above described operations will be repeated. .The disengaging of the shoes 30 and 3| of one or two of the holders will not affect the gripping action of the shoes of the other holders except to assure such gripping ,action due to the interconnection of all the lever arms, springs and extensions. The inward movement of the shoe is limited by the holder which functions as a stop to limit the pivotal movement of the lever arms 32 and 33 under the tension of the springs 3'|-as is more clearly shown in Fig. 1'7. The cam 39 which controls the actions of such parts, is bolted to the upper surface of a flat plate forming part of a bracket 42 which is integral with the bracket 22 supporting the stop plate 20, as is shown in Fig. 18.

Driving mechanism The step-by-step rotation of the table I5 is accomplished by means of a Geneva wheel 43 secured to the lower end of the vertical shaft H and having inwardly extending circumferentially spaced notches (see Fig. 6) adapted to be engaged bya driver or actuating arm 44, the wheel 43 and arm comprising the members of the well known bearing brackets 50 intermediate which=is dis-- spider 62 secured to the upper end of a vertically disposed shaft 63 which extends through the hub of such spider. The vertical shaft 63 also extends -through an open pipe 64 connected in sealed relation at its lower end to the bottom of the tank 6| and projecting up above the upper surface of the bath to prevent wax from entering-therein. The portion of the shaft 63 which projects below the tank 6| extends through a pair of spaced guide members 65 formed on the outer end of a bracket 66 which is bolted at its other end to the under side of the cross T-beam 21.

' Secured to the shaft 63 intermediate the spaced posed a worm 5| which is likewise secured to the shaft 48 and engages with a worm wheel 52 cams for actuating the several mechanisms distributed around the table as will be hereinafter explained. A pulley wheel 56 is mounted on the other or right-hand end of shaft 48, as viewed in Fig. 6 and is connected in driving relation -to such shaft by means of a clutch mechanism 55 of a wellknown type, the particular mechanism used being known as the Dodge clutch. The pulley wheel 56 is driven in the direction of the arrow shown in Fig. 6 by a compound belt 51 consisting of a plurality of V-shaped belts which are connected at their other ends to a compound pulley 58 having V-shaped'grooves and mounted on the shaft of a motor 59. It-will be apparent from the foregoing that when the clutch mechanism is operatively connecting the pulley 56 to the shaft 48, the motor 59 through the connections lust described will rotate the worm "in a counterclockwise manner, as viewed from the'right of Fig. 6, to rotate the worm wheel 46 in the direction in cated thereon. The mechanism is so arran that wormwheel 46 rotates through six revolutions for each revolution of the table l5'so that the Genevawheel 43 and the turn table l5 are rotated through sixty degrees or one step, in

the direction of the arrow indicated on wheel 43 in Fig. 6, for every revolution of the worm wheel 46.

' 0n the first sixty' degree movement of the table l5, the holder which has had a body blank inserted therein at the station A comes to rest Waring means l guide members 65 is a connection provided with a transversely extending pin to which is connected one end of a link 68, the other end of which is connected to one end of a rocking beam 63 pivotally supported on a stud integral with-the bracket 66. The other end of the beam 63 is connected by a link 10 to one end of a rocking beam ll pivotally supported intermediate its ends by the bracket 12 which is fixedly secured to the cross T'-beam 21. The rocking beam H is connected at its other end by a link 13 to one of, the forked arms provided on the forward end engages with the worm 5| mounted on the shaft .48 (see Fig.6) t It will be;,,ev.ident from the foregoing and from Figs. 6, 8 and 19 of the drawings that as the shaft 42 rotates the ;worm 5| in a counterclockwise di-' rection, as viewed from the right of Fig. 6, the

worm wheel 52 will be rotated in the direction indicated byythe'arrow thereon to rotate the, shaft 53 and the cam I to the right, as is indicated in' Fig. 8. When the .cam roller is in the upper horizontal portion of the cam groove as is shown in Fig. 8, the wax applying device 6|! is at rest in its lowermost position below the surface of the bath, as is shown in Fig. 19. When, however, the roller of the cam lever 14 in the rotational movement of the cam I6 rides down into the lower horizontal portion of the cam groove, the outer end of the cam lever 14 will be pivoted upwardly and through the beam and link connections above described will lift the shaft 63 upwardly, thereby .lifting the waxing element up into engagement with the lower edge of a container blank disposed thereabove, as is shown in dotted outline in Fig. 19 of the drawings. The machine is so designed that the cam through the connecting parts above described will not lift the waxing'element 68 upwardly into engagement with the bottom'edge of the container blank until the holder ll carrying such container blank comes to a complete stop at that station during the step -by-step movement of the turn table I5 and will maintain such engagement for almost the entire period of rest of l the table. Theupper surface of the waxing element 6!! which'comes into engagement with the bottom edge of the container, is a flat horizontal one so that as' such element emerges from the bath in the tank 6| it will n0t-carry an'excess amount of wax with it. To insure. that the amount of wax .carried up by the waxing element II is a minimum, the waxing element is provided with a number of radially extending grooves H (see Fig. 5) which'cause the wax to drain from the fiat contacting surface of the element 63 during its upward movements.

The tank BI is supported on the upper flange of the cross T-beam 21 and is disposed above a supply tank 18 (see Fig. 5) with which it is connected by means of a pipe (not shown). The wax from the supply tank 18 is pumped up by means of a pump (not shown) which is connected to and driven by the motor 59 of the machine througha' vertical shaft I9 having mounted on its upper end a beveled gear 88 with which is engaged a pinion 8I mounted on one end of a horizontally extending shaft 82. Provided on the other end of the shaft 82 is a pulley wheel 83 which is connected in driven relation to the shaft of the motor '59 by means of a belt 84. An overflow pipe is provided in the tank BI and the wax is maintained in liquid condition in the tanks 6| and I8 by means of steam pipes, one of which is indicated in Fig. 19 of the drawings.

Beading means After the waxing of -the lower end of the container blank is completed, the turn-table I5 rotates through sixty degrees to move the container blank and the holder carrying the same to the position indicated by the letter C in Fig. 3 of the drawings, the next succeeding holder I8 which has been provided with a container body blank at the station A during the waxing operation just described, moving into the position B for an application of wax to the bottom edge of the container held thereby. As has been previously mentioned, the position C is an idle station and no operations are performed on'the container blank while it is at rest in this position of the travel of the turn-table. On the next rotational movement of the turn-table I5, the con-- trols the movements of the header, the center setof which controls the movements of the head containing the clamping mechanism and the lower set of which controls the actuation of the clamping mechanism carried by such head. The three cams are so designed that a proper sequence in the movements of the header, clamping head and clamping mechanism are obtained.

. Referring now to Figs. 2 and 8 of the drawings, the three earns 85, 16 and 86 of each unit, arefixedly secured to a sleeve 81, which surrounds and is keyed in driving relation to the vertical,

cam shaft 53 but may be moved longitudinally to the latter for the purposes of adjustment. The

sleeve 81 is supported by a pair of spaced br'ack-" A ets 88 and 89 which are bolted at their forward ends to a slide plate 98 (see Figs. 2 and 8) and are maintained in spaced rigid relationship by means of the vertically disposed tie-rods 9| (see Fig. .8. The outer free ends of the upper bracket 88 and the lower bracket 89 are annularly formed and have securely attached to the interior surfaces thereof the outer races of a.

' pair of ballbearing units 92 and '93, respectively,

theinner races of which are seated on-the reduced end portions of. the sleeve 81. A pair of lock nuts 94 and 95 which threadedly engage the threaded upper and lower ends, respectively, of the sleeve 81, secure the inner races of the ball bearing nuts 92 and 93 in position on such sleeve. It will thus be seen that the sleeve 81 and consequently the cams 85, I6 and 86 mounted tainer blank is moved from position 0 to posiand the fact that a description of one will sufiice for an understanding of the arrangement and operation of both, a detailed description of the lower unit only will be given, it being understood that such description applies in all respects to the upper unit, the parts of which have been given reference characters similar to those designating similar parts in the lower-unit. It'may first be stated generally that each unit which is adjustably mounted on the rear portion of the machine or to the right as viewed in Fig. 1 includes a beading head driven by an independent motor and adapted to curl one end of the container into the proper configuration. Contained within the beading head are clamping mechanisms adapted to engage with the interior surfaces of the container and prevent rotational movement of the latter during the beading operation.

Beader operating means sets of cylindrical cams and cam levers (see Fig.

8 of the drawings), the upper set of which conthereon may be shiftedas. a unit with respect to the cam shaft 53 but are supported with relation to the latter so as to be rotatable therewith. The slide plate 98 which supports the brackets 88 and 89 and therefore the sleeve 81 and cams 85, I8 and 86, has its vertically disposed side edges positioned within guideways formed by the inner opposed edges of the spaced vertical, frame members 96 and 91 and the cover plates 98 and-99, respectively, such plate being movable within such guideways to provide for adjustments. 7

The slide plate 98 is provided with three longitudinally spaced openings through which extend the spaced vertically arranged cam levers I4, I88 and I'8I. The top and bottom camlevers I88 and MI, like the aforementioned c'am lever 14, are pivotally supported intermediate their ends on two pairs of spaced vertically disposed brackets I82 and I83, respectively,- which like the brackets I5 upon which cam lever I4 is pivotally mounted, are fixedly secured by bolts to the rear face of the plate 98 in position to enable free rocking movement of such cam levers within the openings. of such plate throughout their range of movement under the influence of the cams 85, I6 and 86. Each of the cam levers I88 and I M like cam lever I4, is provided at itsrear end with a cam roller which engages in the cam groove of its associated cylindrical cam, the cam-lever I88 being controlled inits movements by the cam 85 and the cam lever IOI being connected to the cam 85, while as has been previously described, the'cam lever 14 is in operative engagement with the cam 16. Also like the cam lever 14,-the cam levers I88 and MI are provided with forward forked ends, the forward 

